DE729135C - Encoder for the remote position of non-rotating measuring mechanisms - Google Patents

Description

Transmitter for remote display of the position of non-rotating measuring units Es ist known to transmit measured values according to the pulse frequency method in such a way, that an organ, for example a counter, rotates at a speed that is proportional to the measurand. This counter closes once with each revolution temporary contact. This procedure was without significant difficulty hitherto only applicable if one of the measurands corresponds from the outset Speed was available, d. H. when the meter is used to measure a power became. On the other hand, it is a question of measured quantities that can only be obtained directly from a pointer deflection are to be reproduced, more or less complicated facilities were required, do to convert the pointer deflection into a speed first.

In another known device, the remote transmission of Measured values after the frequency change method made in such a way that the Speed of a small alternator changed depending on the measured variable will. It is also known to use a pendulum converter in place of this generator, whose number of interruptions is influenced by the quantity to be measured. According to the invention a transmitter for the pulse frequency method is used to remotely display the position of non-rotating measuring units created by the fact that the measuring device measures the number of vibrations of the impulses in the Rhythm of the number of oscillations causing electrical pendulum as a function of the measured variable is influenced by the fact that the pendulum has two deflections on both sides attached, cross-wise the drive magnets of the pendulum-controlling contacts work together, at least one of which is adjusted as a function of the measured variable. .

An exemplary embodiment of the invention is shown schematically in the drawing. It is i the armature of an electric pendulum, a its weight, and 3 a contact attached to the pendulum. This contact 3 moves between a fixed contact 5 and a contact 4 designed as a cam disk. The contact 4 sits on an axis of the measuring device. B. on the axis of a power factor meter. The armature i is through the coils 6 and; attracted intermittently, depending on the contact between the contact members 3, 4 and 5. The feed line to the armature i or to the cam is carried out through the resilient conductors i3, 14-At the moment of contact "earth with the excitation of the coils 6 and 7, the are designed as a relay at the same time, their contacts 8 and 9 closed. These contacts S and 9 cause pulses to be transmitted to the long-distance line ir, 12, since the contacts 8, 9 are connected to the supply line to the power source io. The line 1z is firmly connected to one pole of the power source 1o. The pendulum is adjusted so that the number of pulses is proportional or in some other desired relationship to the distance between contacts 4 and 5. Since this distance, on the other hand, is only dependent on the position of the cam 4, you have it in the hand, the proportionality or another desired relationship to the measured value, z. B. the power factor, and the number of pulses transmitted. In the embodiment shown, io is specified as a direct current battery, but any other type of current source can be used instead, for example a tone or high-frequency generator that is keyed or modulated by the contacts 8, 9. The contacts 3'-earth are expediently resiliently attached to the pendulum in order to reduce the impact on the mechanical system of the measuring devices as much as possible.

The plane of oscillation of the pendulum can also instead of being perpendicular to the axis of the measuring device lie parallel to it. The cam .1 then takes the place of the cam a suitably designed cylinder.

In your described embodiment is in the drawing only the arrangement at the encoder location is shown. The transmission itself takes place in exactly the same way and with the same means as in remote transmission technology according to which are customary.

At the receiving location, one of the known recipients can use the pulse frequency method used, for example such a device, called which with the help of a battery constant voltage in the capacitor, a direct current is proportional to the measured variable Strength is regulated.

; uch can be used instead of such a pulse frequency receiver Pulse compensation receivers of a known type are used, in which the adjustment of the display current is carried out by an ampere-hour meter.

Claims (1)

PATENT CLAIMS: i. Transmitter for remote display of the position not non-running Measuring units according to the pulse frequency method, characterized in that the measuring device the number of vibrations of one causing the impulses to be generated in the rhythm of the number of vibrations electric pendulum influenced by the fact that the Pendulum with two drive magnets attached to both sides of the swing and crosswise of the pendulum-controlling contacts cooperates, of which at least one is in Is adjusted depending on the measured variable. Encoder according to claim i, characterized in that that at least one mating contact of the pendulum was adjusted in one by the measuring device There is a cam. 3. Encoder according to claim i and 2, characterized. that the plane of oscillation of the pendulum is parallel to the axis of the measuring device. 4th giver according to claims i to 3, characterized in that by a corresponding choice the shape of the cam adjusted by the measuring device any relationship between Measured variable and pulse frequency is produced. 5. encoder "according to claim i to 4, characterized by using the device for remote measurement of sizes changing Sign, e.g. B. the power factor.